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Volumn 33, Issue 4, 2001, Pages 297-336
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Numerical analysis and experimental studies on the role of rheological properties in effecting die swell of low density polyethylene, polypropylene and polystyrene: A predictive model based on Newtonian fluid
a a,b |
Author keywords
Amorphous polystyrene; Crystalline polystyrene; Die swell modeling; First normal stress difference; Low density polyethylene; Maximum recoverable deformation; Newtonian fluid; Polypropylene; Shear rate; Shear stress
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Indexed keywords
LOW DENSITY POLYETHYLENES;
MATHEMATICAL MODELS;
NEWTONIAN LIQUIDS;
POLYMERIZATION;
POLYPROPYLENES;
POLYSTYRENES;
PROBABILITY DENSITY FUNCTION;
SHEAR STRENGTH;
TEMPERATURE;
DIE SWELL MEASUREMENT;
GAUSSIAN NETWORK THEORY;
MICROTRUDER DIE;
RANDCASTLE MICROTRUDER;
STRAIN ENERGY DENSITY FUNCTION;
RHEOLOGY;
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EID: 0035492897
PISSN: 00952443
EISSN: None
Source Type: Journal
DOI: 10.1106/1U08-KR8F-73BA-XNKG Document Type: Article |
Times cited : (11)
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References (47)
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